Reconfigurable Battery Systems Market: Trends, Technologies, and Forecast (2025–2035)

What is a reconfigurable battery system?

A reconfigurable battery system is a battery pack wherein the interconnections among individual cells can be dynamically altered during operation to form various configurations. This capability transforms a conventional passive two-terminal battery into an intelligent system that can reconfigure itself in response to specific requirements, thereby enhancing operational performance.

What is the current market size and future growth forecast for RBS?

The reconfigurable battery systems (RBS) market was valued at $3.06 billion in 2024 and is projected to grow at a CAGR of 14.78%, reaching $13.59 billion by 2035.

Which regions are witnessing the fastest adoption of reconfigurable batteries? North America is expected to dominate the market. Demand for grid storage and integration of renewable energy is highest in the United States.Regions like North America and Europe are investing heavily in energy storage—e.g., the U.S. installed 9.2 GW of battery storage in 2024, and Europe aims to exceed 50 GW by 2030.

What are the key business opportunities in the reconfigurable battery systems (RBS) market?

The reconfigurable battery systems (RBS) market offers key business opportunities driven by technological advancements and the increasing demand for flexible, scalable energy solutions. Key growth areas include integration with renewable energy systems for grid stabilization, expanding EV market demand for adaptable battery solutions, and the rising need for off-grid and remote energy storage in underserved regions. Additionally, RBS can provide cost-effective backup power for industrial and commercial sectors, offering an alternative to traditional diesel generators. Government incentives and regulatory compliance further enhance market potential, while advancements in hydrogen energy storage offer new revenue streams. These opportunities position RBS as a critical component in the transition to sustainable energy.

What are the restraints for RBS market growth?

The RBS market faces significant competition from traditional energy storage systems like pumped hydro and lead-acid batteries. These traditional systems have existing infrastructure, shown long-term efficacy, and reduced upfront expenses. Despite geographical restrictions, pumped hydro dominates large-scale storage because of its low cost per kilowatt-hour, while lead-acid batteries continue to be economical for smaller or backup applications. RBS, on the other hand, frequently have higher startup costs and less established reliability, despite providing more flexibility and scalability. In order to effectively compete across a range of energy storage needs, RBS must keep improving its energy density, longevity, and cost-efficiency.

Who are the leading players in the reconfigurable battery systems market?

Tesla

Panasonic Corporation

SAMSUNG SDI

Northvolt AB

Hitachi Energy Ltd.

VARTA AG

Gogoro Inc.

Sonnen

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Gain deep information on  Advance Materials and Chemicals Vertical 

Conclusion

The Reconfigurable Battery Systems (RBS) market is poised for significant growth, driven by the global shift toward renewable energy, technological advancements, and increasing demand for flexible, scalable energy storage solutions. By facilitating effective energy management for a variety of applications, including grid storage, electric vehicles, and backup power, RBS present a strong alternative to conventional systems. Even though traditional storage technologies present a hurdle, RBS's performance and affordability are being improved by ongoing innovation in modular designs and intelligent battery management systems. With increased investment in energy infrastructure and robust policy backing, RBS is poised to be a key player in the shift to a low-carbon economy. RBS will play a key role in providing dependable, sustainable, and future-ready storage options as energy systems develop.

The reconfigurable battery systems (RBS) market is valued at $8.27 billion in 2024 and projected to grow at a CAGR of 15.29%, reaching $34.29 billion by 2034.

Industrial Robotic Tool Changer Market  Analysis, Demand, Growth, Technology Trends, Key Findings and Forecast 

According to new market analysis from Intel Market Research, the global Industrial Robotic Tool Changer market was valued at $519 million in 2024 and is projected to reach $1,145 million by 2032, expanding at an impressive CAGR of 12.3% during the forecast period (2025-2032). This growth trajectory reflects the accelerating adoption of automation across manufacturing sectors and the critical role of tool changers in optimizing robotic workflows.

📥 Download Sample Report: Industrial Robotic Tool Changer Market - View in Detailed Research Report

What Are Industrial Robotic Tool Changers?

Industrial Robotic Tool Changers are electromechanical interface systems that enable robots to automatically switch between end-effectors, grippers, or specialized tools without manual intervention. Serving as the critical link between robotic arms and active tooling, these devices dramatically improve production flexibility while reducing changeover times from hours to seconds.

The technology has become indispensable across automotive assembly lines, electronics manufacturing, and food processing plants - anywhere production demands rapid tool switching between welding torches, vacuum grippers, vision systems, or precision cutting tools. Modern tool changers maintain precise alignment within 0.01mm tolerance and can handle payloads exceeding 1,000 kg in heavy industrial applications.

📥 Download Sample Report: Industrial Robotic Tool Changer Market - View in Detailed Research Report

Key Market Drivers

1. Industry 4.0 and Smart Manufacturing Adoption

The fourth industrial revolution has transformed tool changers from optional accessories to essential smart components. Modern facilities require systems that can:

Automatically log tool usage data for predictive maintenance

Interface with MES/ERP systems for workflow optimization

Support rapid product changeovers for mass customization

The automotive sector's shift toward electric vehicles has particularly driven demand, with tool changers enabling flexible production lines that can switch between combustion engine and battery assembly processes.

2. Labor Market Pressures and Productivity Demands

With skilled labor shortages persisting across manufacturing sectors, companies are investing in robotic systems that can:

Operate 24/7 with minimal supervision

Perform multiple tasks through automated tool switching

Handle hazardous operations like foundry work or chemical processing

Tool changers have proven particularly valuable in pharmaceutical cleanrooms and food processing plants where minimizing human intervention reduces contamination risks.

Market Challenges

The sector faces several technical and economic hurdles:

High integration costs: Retrofitting legacy equipment with modern tool changers often requires complete production line reconfiguration

Skill gaps: Many facilities lack personnel trained in programming and maintaining advanced robotic tooling systems

Standardization issues: Competing interface standards create compatibility challenges across robot manufacturers

Regional Market Insights

Asia-Pacific: Dominates demand with 42% market share, led by China's aggressive automation initiatives and Japan's leadership in robotic density

North America: Shows strongest growth in collaborative robot (cobot) compatible tool changers for SMEs

Europe: Leads in precision tool changers for aerospace and medical device manufacturing

Market Segmentation

By Technology:

Manual Tool Changers

Automatic Tool Changers

Multi-station Rotary Changers

By Application:

Material Handling

Welding & Assembly

Painting & Coating

Inspection & Measurement

By Industry:

Automotive

Electronics

Food Processing

Aerospace

Pharmaceuticals

Get Full Report Here: Industrial Robotic Tool Changer Market - View in Detailed Research Report

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Competitive Landscape

The market features several established players and innovative newcomers:

ATI Industrial Automation: Market leader in precision tool changers

Stäubli: Specializes in heavy-duty industrial connectors

Schunk: Focused on collaborative robot solutions

Recent developments include the introduction of:

Wireless tool identification systems

Self-cleaning mechanisms for food-grade applications

Integrated force-torque sensing capabilities

About Intel Market Research

Intel Market Research is a leading provider of strategic intelligence, offering actionable insights in industrial automation, manufacturing technology, and process optimization. Our research capabilities include:

Real-time competitive benchmarking

Technology adoption tracking

Supply chain analysis

Over 500+ industrial reports annually

Trusted by Fortune 500 manufacturers, our insights help companies navigate the evolving Industry 4.0 landscape.

🌐 Website: https://www.intelmarketresearch.com 📞 International: +1 (332) 2424 294 📞 Asia-Pacific: +91 9169164321 🔗 LinkedIn: Follow Us

Is Your HMO Fire Safe? 5 Signs Your Property Needs a Fire Alarm Upgrade Now

Owning or managing a House in Multiple Occupation (HMO) comes with a unique set of responsibilities, not least of which is fire safety. For landlords across Eastbourne and East Sussex, ensuring your fire alarm system is not only present but effective, compliant, and reliable is a legal and moral duty.

At M and M Electrical Services Ltd, we’ve worked with countless HMO property owners who thought their systems were fine — until they weren’t. In this post, we’ll walk you through five clear signs that your fire alarm system might need an upgrade, using insights from our real-world experience and the services we proudly offer.

As a NICEIC-approved contractor based in Eastbourne, we provide tailored fire alarm design, installation, maintenance, and servicing to ensure HMOs and other residential properties meet current safety standards and protect tenants effectively.

Real-World Wake-Up Call: When Assumptions Nearly Cost Lives

Recently, we were contacted by the landlord of a medium-sized HMO just outside Eastbourne. The building had a basic mains-powered fire alarm system installed several years ago, but no one had checked it in ages. After a tenant reported a strange smell in the communal hallway, the landlord realised the fire alarm hadn’t triggered at all.

We conducted a full inspection and found multiple faults: expired detectors, a disconnected sounder, and no working battery backup. The system had never been serviced.

This is why understanding the signs of a system in need of upgrading is crucial — especially in HMOs where tenant safety is paramount.

1. Your Fire Alarm Hasn’t Been Professionally Serviced in Over 6 Months

If you can’t remember the last time your system was checked by a professional, it’s overdue.

Fire alarm servicing is essential to ensure all components are functioning, including:

Smoke and heat detectors

Control panels

Audible sounders

Battery backups

At M and M Electrical Services Ltd, we provide expert fire alarm servicing throughout Eastbourne. We work with landlords, letting agents, and property managers to maintain all sizes and types of fire alarm systems, ensuring compliance and tenant safety.

🔗 Learn about our servicing

options: https://electriciansineastbourne.co.uk/fire-alarm-servicing-eastbourne/

🛠 Tip: Keep a written log of all testing and servicing. We can help you maintain these records.

2. You’re Experiencing Frequent False Alarms

False alarms aren’t just inconvenient — they’re dangerous. Tenants may begin to ignore them, which is a major risk in a real emergency.

These are often caused by:

Faulty or incorrectly positioned detectors

Outdated systems

Lack of regular maintenance

Cheap DIY installations

At M and M Electrical Services, our fully qualified team can identify the cause of frequent false alarms and offer targeted solutions. Whether your system needs a reconfiguration, repair, or upgrade, we’re here to help.

3. Your System Doesn’t Meet Current Regulations

HMOs are subject to strict fire safety laws, and outdated systems may no longer be compliant.

We install and upgrade systems to meet:

BS 5839–1 & BS 5839–6 standards

LACORS Fire Safety Guidance

The Disability Discrimination Act (2004), where required

We’re also qualified to British Fire Protection Systems Association standards and can recommend a system that fits your property, whether that’s a Grade D domestic system or a full Grade A panel-controlled installation.

🔗 Explore our installation services: https://electriciansineastbourne.co.uk/fire-alarm-installation-eastbourne/

🧠 Did you know? A Grade A system is typically required for HMOs with three or more floors.

4. You’ve Renovated, Reconfigured, or Expanded the Property

Changes to the layout of your HMO can have a direct impact on the effectiveness of your fire alarm system. Even minor modifications — like moving a kitchen or adding a partition — can block smoke pathways or render detectors ineffective.

Before or after any renovation, it’s vital to consult a qualified fire alarm engineer to assess whether your current system still provides adequate coverage.

At M and M Electrical Services, our engineers are fully trained to design and install systems tailored to the layout and fire risk profile of your HMO.

5. You’re Relying on a System Installed More Than 10 Years Ago

Technology advances quickly, and fire safety is no exception. A system installed over a decade ago may lack essential features such as:

Interlinked smoke detectors

Zonal fire detection

Battery backup

Remote monitoring options

If your system is ageing, it may no longer offer reliable protection — and parts could be difficult or expensive to replace. Our team can assess your existing setup and recommend a cost-effective upgrade that meets today’s safety expectations.

💡 Tip: Investing in a new system now can save you from costly emergency repairs later.

Why Landlords in Eastbourne Trust M and M Electrical Services Ltd

We are a locally based, honest, hard-working, and ethical business that has built a strong reputation in Eastbourne and the surrounding areas. Our customers trust us because:

✔ We complete all jobs to the highest standard ✔ We deliver on time and within budget ✔ We are fully NICEIC registered and insured ✔ Our engineers are approachable, trustworthy, and experienced ✔ We prioritise safety and customer satisfaction above all else

A large portion of our work comes from repeat customers and referrals, and we’re proud of that.

Don’t Wait for a Fire to Discover a Fault

Fire safety in HMOs is not optional — it’s your legal duty and a matter of protecting lives. If any of the signs we’ve outlined apply to your property, don’t wait. Let our experienced team provide a complete assessment, clear advice, and reliable servicing.

At M and M Electrical Services Ltd, we’re here to ensure your fire alarm system is not only compliant but effective.

📞 Book your free consultation or get a quote today: 🔗 https://electriciansineastbourne.co.uk/contact-us/

Trends and Insights in Lighting Services Procurement Intelligence

The global lighting services category is anticipated to grow at a CAGR of 4.5% from 2023 to 2030. Growth of the category can be attributed to rise in global infrastructure projects, innovations in lighting systems, favorable regulatory environment, emergence of Lighting-as-a-Service (LaaS) business model, high demand for LED lighting, and growing demand in applications such as interior design and photography. LaaS consists of a subscription-based service for lighting needs of businesses. Key advantages of LaaS include zero upfront costs, reduction in energy usage, enhanced employee productivity and safety, and improvement in building operations. Key factors restraining the category include increased inflation and economic slowdown, issues in maintenance, rising raw material costs, complexity in pricing structures, supply chain disruptions, and environmental concerns.

Key technological advancements driving the global lighting services category include smart lighting systems, Internet of Things (IoT) enabled lighting, Luminaire-level lighting controls (LLLC), wireless lighting, Li-Fi (Light-Fidelity) systems, Light Detection and Ranging (LiDAR) sensors, and lithium-ion batteries. LLLC consist of lighting control systems embedded with sensors and controllers enabling autonomous control. Benefits of LLLC include ease of installation, long-term flexibility, and reduction in energy costs. It is suitable for offices, classrooms, and commercial facilities that require lighting reconfiguration. Smart lighting systems contain LED bulbs that contain software which is used to automate lighting control. These systems can by controlled by mobile applications and provide energy efficiency, security, and convenience to end-users.

The lighting services category is fragmented and consists of a large number of global market players, turning the category to be competitive. Key players in the category set themselves apart by providing innovative technologies, offering customized solutions, optimizing service quality, engaging in strategic partnerships, adopting effective marketing strategies, having a strong digital presence, and emphasizing customer satisfaction in order to enhance their service portfolio and to stay competitive. Moreover, they are actively focusing on improving environmental sustainability by using energy-efficient lighting equipment. Additionally, key players are also focusing on improving the overall customer experience by offering tailored pricing plans, flexibility and scalability of services, providing end-to-end services, and focusing on end user experience. Buyers in the category possess high bargaining capability owing to an extensive supply base.

Order your copy of the Lighting Services Procurement Intelligence Report, 2023 - 2030, published by Grand View Research, to get more details regarding day one, quick wins, portfolio analysis, key negotiation strategies of key suppliers, and low-cost/best-cost sourcing analysis

Labor, equipment, wiring and components, maintenance and repair, licensing and compliance, and other costs are the key components of this category. Other costs include transportation and logistics, rent and utilities, sales and marketing, insurance, and taxes. Labor and equipment account for the largest share of the cost structure. A prominent pricing structure used in lighting services is fixed-price structure, which guarantees that a service provider will receive the approved sum of money specified in the contract and have a predetermined, predictable pricing for the services indicated. Another type of pricing structure is based on time and materials, in which the price is decided by the cost of materials and the amount of time needed to finish the task. This pricing structure is usually adopted when the time and resources required for a particular service cannot be realistically concluded beforehand. An FTE-based pricing structure is also used in this category, where the service provider decides the pricing based on the headcount of resources working on the project. Additionally, service providers in this category may also use value-based pricing, wherein the rates are decided based on the consumer’s perceived value of the service.

Asia Pacific dominates the global lighting services category, holding a significant portion of the global market share. Key driving factors for this region include presence of several large-scale vendors in China, rise in the number of smart city projects, increase in government initiatives to promote energy-efficient lighting systems, and emergence of LaaS. Key driving factors in developed regions such as North America and Europe include presence of large-scale companies, adoption of innovative technologies, and high usage of energy efficient products. Asia Pacific is also expected to be the fastest growing region during the forecasted period due to a surge in the number of commercial facilities that require lighting, rising usage of LaaS model, and rise in the number of providers of lighting services. Comparing the prices charged by various service providers, assessing service capabilities based on type of lighting equipment, evaluating the experience level of service providers, comparing technologies used in lighting equipment and service provision, comparing the lead time of various service providers, measuring service quality based on customer testimonials, and checking adherence to environmental and safety norms are some of the best sourcing practices considered in this category.

Lighting Services Procurement Intelligence Report Scope

• Lighting Services Category Growth Rate: CAGR of 4.5% from 2023 to 2030

• Pricing Growth Outlook: 5% - 10% increase (Annually)

• Pricing Models: Fixed pricing, Time and materials-based pricing, FTE pricing, Value based pricing

• Supplier Selection Scope: Cost and pricing, Past engagements, Productivity, Geographical presence

• Supplier Selection Criteria: Geographic service provision, years in service, industries served, revenue generated, employee strength, certifications, type of lighting product, type of lighting service, technological capabilities, lead time, and others

• Report Coverage: Revenue forecast, supplier ranking, supplier matrix, emerging technology, pricing models, cost structure, competitive landscape, growth factors, trends, engagement, and operating model

Browse through Grand View Research’s collection of procurement intelligence studies:

• Benefit Administration Tool Procurement Intelligence Report, 2023 - 2030 (Revenue Forecast, Supplier Ranking & Matrix, Emerging Technologies, Pricing Models, Cost Structure, Engagement & Operating Model, Competitive Landscape)

• Drilling Equipment & Consumables Procurement Intelligence Report, 2023 - 2030 (Revenue Forecast, Supplier Ranking & Matrix, Emerging Technologies, Pricing Models, Cost Structure, Engagement & Operating Model, Competitive Landscape)

Key Companies 

• Eaton Corporation plc

• Koninklijke Philips N.V.

• LEDtronics Sdn Bhd

• Ledvance GmbH

• Lumenix

• OSRAM GmbH

• Panasonic Corporation

• Schneider Electric

• Signify Holding

• Stouch Lighting

Brief about Pipeline by Grand View Research:

A smart and effective supply chain is essential for growth in any organization. Pipeline division at Grand View Research provides detailed insights on every aspect of supply chain, which helps in efficient procurement decisions.

Our services include (not limited to):

• Market Intelligence involving – market size and forecast, growth factors, and driving trends

• Price and Cost Intelligence – pricing models adopted for the category, total cost of ownerships

• Supplier Intelligence – rich insight on supplier landscape, and identifies suppliers who are dominating, emerging, lounging, and specializing

• Sourcing / Procurement Intelligence – best practices followed in the industry, identifying standard KPIs and SLAs, peer analysis, negotiation strategies to be utilized with the suppliers, and best suited countries for sourcing to minimize supply chain disruptions

Digital Power Control Chip, Global Market Size Forecast, Top 8 Players Rank and Market Share

Digital Power Control Chip Market Summary

According to the new market research report “Global Digital Power Control Chip Market Report 2023-2029”, published by QYResearch, the global Digital Power Control Chip market size is projected to reach USD 3.63 billion by 2029, at a CAGR of 11.3% during the forecast period.

Figure.   Global Digital Power Control Chip Market Size (US$ Million), 2019-2030

Above data is based on report from QYResearch: Global Digital Power Control Chip Market Report 2024-2030 (published in 2024). If you need the latest data, plaese contact QYResearch.

Figure.   Global Digital Power Control Chip Top 15 Players Ranking and Market Share (Ranking is based on the revenue of 2023, continually updated)

Above data is based on report from QYResearch: Global Digital Power Control Chip Market Report 2024-2030 (published in 2024). If you need the latest data, plaese contact QYResearch.

According to QYResearch Top Players Research Center, the global key manufacturers of Digital Power Control Chip include Texas Instruments, NXP, Microchip Technology, STMicroelectronics, Infineon, etc. In 2022, the global top four players had a share approximately 68.0% in terms of revenue.

Figure.   Digital Power Control Chip, Global Market Size, Split by Product Segment

Based on or includes research from QYResearch: Global Digital Power Control Chip Market Report 2024-2030.

In terms of product type, currently 12 Bits is the largest segment, hold a share of 16.9%.

Figure.   Digital Power Control Chip, Global Market Size, Split by Application Segment

Based on or includes research from QYResearch: Global Digital Power Control Chip Market Report 2024-2030. In terms of product application, currently Telecommunications Equipment is the largest segment, hold a share of 49.9%.  Market Drivers: Technological progress and market demand: With the rapid development of science and technology, especially the popularization of 5G technology, the demand for Digital Power Control Chips has increased significantly. 5G equipment requires more efficient and stable power management chips to support its high-speed, low-latency communication requirements. In addition, the rapid development of the new energy vehicle market has also promoted the growth in demand for Digital Power Control Chips, because new energy vehicles use battery power systems and require digital power ICs to control and manage power. Programmability and reconfigurability: One of the biggest advantages of Digital Power Control Chips is its programmability and reconfigurability, which allows the power system to be more flexibly adapted to different application needs, further expanding its market application scope. . Energy efficiency and performance optimization: Digital Power Control Chips can improve the energy efficiency and performance of equipment and reduce power consumption through precise power management and control, which is very critical for modern electronic equipment that pursues high performance and low energy consumption. Policy support and investment drive: The government's policy support for new energy, energy conservation and emission reduction, as well as the capital market's enthusiasm for investment in the semiconductor industry, have provided a strong driver for the development of Digital Power Control Chips.

Challenge: Technical challenges: As an integrated circuit product, Digital Power Control Chips face many technical challenges during their design and manufacturing process. With the improvement of chip integration, the requirements for manufacturing accuracy and stability are also getting higher and higher. At the same time, Digital Power Control Chips need to have efficient, stable, and reliable power management capabilities, which places extremely high requirements on the design and manufacturing process of the chip. In addition, as new technologies continue to emerge, how to maintain technological leadership and innovation is also an important challenge faced by Digital Power Control Chips. Market challenges: As market competition intensifies, Digital Power Control Chip companies are facing pressure from competitors. In order to win market share, companies need to continuously improve the performance and quality of their products while reducing costs. In addition, as market demand continues to change, companies need to quickly respond to market changes and flexibly adjust product strategies to meet customer needs. Industry chain challenges: The manufacturing of Digital Power Control Chips involves multiple links, including chip design, manufacturing, packaging and testing, etc. The lack or instability of any link may affect the operation of the entire industrial chain. Therefore, Digital Power Control Chip companies need to work closely with upstream and downstream companies in the industry chain to jointly respond to various challenges. Safety and reliability challenges: Digital Power Control Chips play a vital role in equipment. Once a failure occurs, it may lead to the failure of the entire equipment. Therefore, Digital Power Control Chips need to have a high degree of safety and reliability. Enterprises need to strengthen quality management and control to ensure product stability and reliability.   About QYResearch QYResearch founded in California, USA in 2007.It is a leading global market research and consulting company. With over 16 years’ experience and professional research team in various cities over the world QY Research focuses on management consulting, database and seminar services, IPO consulting, industry chain research and customized research to help our clients in providing non-linear revenue model and make them successful. We are globally recognized for our expansive portfolio of services, good corporate citizenship, and our strong commitment to sustainability. Up to now, we have cooperated with more than 60,000 clients across five continents. Let’s work closely with you and build a bold and better future. QYResearch is a world-renowned large-scale consulting company. The industry covers various high-tech industry chain market segments, spanning the semiconductor industry chain (semiconductor equipment and parts, semiconductor materials, ICs, Foundry, packaging and testing, discrete devices, sensors, optoelectronic devices), photovoltaic industry chain (equipment, cells, modules, auxiliary material brackets, inverters, power station terminals), new energy automobile industry chain (batteries and materials, auto parts, batteries, motors, electronic control, automotive semiconductors, etc.), communication industry chain (communication system equipment, terminal equipment, electronic components, RF front-end, optical modules, 4G/5G/6G, broadband, IoT, digital economy, AI), advanced materials industry Chain (metal materials, polymer materials, ceramic materials, nano materials, etc.), machinery manufacturing industry chain (CNC machine tools, construction machinery, electrical machinery, 3C automation, industrial robots, lasers, industrial control, drones), food, beverages and pharmaceuticals, medical equipment, agriculture, etc.

CPLD Market Soars: A Comprehensive Analysis of the US$ 592.3 Million Global Landscape in 2023

In 2023, the complex programmable logic device (CPLD) market is expected to be worth US$ 634 million. The market is expected to reach US$ 1,335 million in 2033, expanding at a 7.8% CAGR throughout the forecast period.

Complex programmable logic devices are designed to implement custom digital logic functions and are reprogrammable, allowing users to modify and adapt their functionality to specific application requirements. They find extensive use in several electronic applications, offering flexibility and configurability in designing digital circuits.

The demand for energy-efficient solutions is a compelling factor driving the increased adoption of complex programmable logic devices (CPLDs) in several electronic applications. As industries and consumers prioritize sustainability and reduced power consumption, electronic systems must efficiently utilize energy resources.

Get Sample Copy of this Report at: https://www.futuremarketinsights.com/reports/sample/rep-gb-18737

In applications such as Internet of Things (IoT) devices, wearables, and battery-operated systems, where power efficiency is critical, CPLDs provide a valuable solution. By allowing designers to implement power-efficient logic functions and reconfigure them as needed, CPLDs extend battery life and minimize the environmental impact of electronic devices.

As vehicles become more technologically advanced, incorporating features such as advanced driver-assistance systems (ADAS), in-vehicle infotainment, and connectivity solutions, the complexity of automotive electronics is on the rise. CPLDs enable automotive engineers to implement custom logic functions tailored to specific vehicle functionalities, providing adaptability and configurability.

The trend toward electric and hybrid vehicles further underscores the importance of CPLDs. As these vehicles incorporate advanced power management, energy efficiency, and control systems, CPLDs provide a platform for implementing programmable logic to optimize these functions.

Key Takeaways from the Complex Programmable Logic Device (CPLD) Market:

The complex programmable logic device (CPLD) market in the United States is predicted to reach US$ 214 million in 2033, increasing at a 5.6% CAGR.

China market is estimated to expand at a CAGR of 10.2% by 2033.

Sales in Germany are expected to total US$ 42.0 million.

Brazil’s complex programmable logic device (CPLD) market is predicted to reach US$ 61 million in 2033.

The TQFP IC packaging segment is estimated to grow with a CAGR of 9.8% over the forecast period.

Competitive Landscape

The complex programmable logic device (CPLD) industry is highly competitive, with several players competing for market share. Key players in this market include Microchip Technology, Inc., Lattice Semiconductor, AMD Xilinx, Infineon Technologies, Intel Corporation, STMicroelectronics, Teledyne e2v, Renesas Electronics, and many others. These companies offer a range of programmable logic devices, including CPLDs and FPGAs, catering to diverse application needs.

Continuous innovation in CPLD technology is a key competitive factor. Companies invest in research and development to introduce new features, improve performance, and enhance energy efficiency in their CPLD offerings.

Leading players are focusing on providing CPLDs tailored for automotive applications, while others emphasize industrial automation or telecommunications solutions. Companies with a widespread presence effectively address regional market demands and respond to the evolving needs of different industries and applications.

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For instance,

In July 2023, Microchip Technology invested around US$ 300 million in expanding its operations in India. This investment aims to enhance facilities in Bangalore and Chennai.

In June 2023, Renesas acquired Panthronics, a premium supplier of advanced semiconductor solutions. This acquisition will allow Renesas to use the technological synergy.

In June 2022, Lattice Semiconductor expanded its partnership with AMI to secure next-generation server and data center platforms.

Get More Valuable Insights into Complex Programmable Logic Device (CPLD) Market Report

Future Market Insights (FMI), in its new offering, provides an unbiased analysis of the complex programmable logic device (CPLD) market, presenting historical demand data (2018 to 2022) and forecast statistics for the period from 2023 to 2033.

The study incorporates compelling insights on the type (EEPROM CPLDs, FLASH CPLDs) IC packaging (PLCC, TQFP, PDIP, LFQP, CDIP, SOIC, Others) no. of Macrocells (32 Macrocells, 64 Macrocells, 128 Macrocells, 192 Macrocells, 256 Macrocells, 440 Macrocells, others) industry (consumer electronics, medical devices, automotive, industrial automation, telecommunication, aerospace and defense, others [energy and utilities, transportation and traffic management]) region (North America, Latin America, East Asia, South Asia and Pacific, Western Europe, Eastern Europe, Middle East and Africa)

Complex Programmable Logic Device (CPLD) Market Segmentation

By Type:

EEPROM CPLDs

FLASH CPLDs

By IC Packaging:

PLCC

TQFP

PDIP

LFQP

CDIP

SOIC

Others

By No. of Macrocells:

32 Macrocells

64 Macrocells

128 Macrocells

192 Macrocells

256 Macrocells

440 Macrocells

Others

By Application:

Consumer Electronics

Smart TVs

Smartphones and Tablets

Home Audio Devices

Other Smart Home Devices

Medical Devices

Patient Monitoring Devices

Medical Imaging Equipment

Surgical Equipment

Other Medical Devices

Automotive

Transmission Control

Engine Control and Management

Airbag Deployment Systems

Keyless Entry Systems

Other Automotive application

Industrial Automation

Motion Control Systems

Human-Machine Interface

Distributed Control Systems (DCS)

Industrial Robotics

Other Industrial application

Telecommunication

Switching and Routing Equipment

Telecom Infrastructure

Optical Networking

Data Center Interconnects

Other Telecom application

Aerospace and Defense

Guidance and Navigation Systems

Avionics Systems

Electronic Warfare Systems

Military Vehicles

Other A&D applications

Others (Energy and Utilities, Transportation and Traffic Management)

By Region:

North America

Latin America

East Asia

South Asia and Pacific

Western Europe

Eastern Europe

Middle East and Africa

Identify Drivers and Challenges – Buy Now! https://www.futuremarketinsights.com/checkout/18737

Aetis Sdn Bhd Expired iRobot Authorized Distributor in Malaysia

Since 2012, Aetis Sdn Bhd Has Been given the Authorized Distributor by John Ackerman Pte Ltd (Singapore) for the iRobot brand in Malaysia. They have helped create awareness among Malaysians that having a robot vacuum in home can significantly improve life quality.

As John Ackerman focuses on their company in Singapore, they rely upon Aetis to give sales and after sales service for iRobot customers. After few years, John Ackerman climbed ambitious and terminated Aetis Sdn Bhd rights as authorized distributor. John Ackerman set up a workplace in iRobot Empire Subang Jaya (SOHO). Aetis was place to dry. Aetis shortly ventured into selling different items such as inkjet printers, canvas printing, smart door lock, and also unicycle or scooters. They still continue to give after sales service to their previous customers earlier the takeover.

While all this is occurring, AutoVac Bot tries to disrupt the iRobot market by supplying 2 Years Warranty and also beating the high price set by the Authorized Distributor. They seem specializing in robotic vacuums just.

Update: It appears that John Ackerman has exited the iRobot market in Malaysia. Presently we're not certain who is your Authorized Distributor for the iRobot brand. But from what we collect, AutoVac Bot is still trying strong providing exceptional price and service to its customers.

It was a very late adopter of robot vacuums. The first iRobot hit shops 15 years earlier I eventually buy a robot vacuum for my own home. During I did, I went cheap: I bought an inexpensive vacuum without any mapping capabilities from Amazon. This cheap robot vacuum has functioned well, even if it does just bump on every side the room until its battery runs out. I still don't think that robot vacuums would rebuild a true weekly vacuuming, but my small bot has surprised me with its power to suck up dust and debris.

IRobot's Roomba i7+ is about the exact opposite spectrum of robot vacuums from the 1 I have. In the event the cheap robot I have is a Kia, the i7+ is the Cadillac of robot vacuums. It would map my entire home. It would be controlled by means of a voice assistant or from a smartphone app anywhere in the world. It would even empty its own bin. It also costs RM 4950, which is five times extra than the robot vacuum I buy. IRobot also sells an i7 model which has identical cleaning capabilities but doesn't proceed with the special automatic bin-emptying base for a duo hundred bucks smaller, but that's a bit such as buying a base model BMW.

The i7+ is definitely the future of robot vacuuming that's obtainable in the present. However there are still things I'd such as to sight enhanced.

The i7+ is an update to iRobot's high-end Roomba 980 from 3 decades ago. The 980 was capable of mapping a distance and efficiently cleaning it, but it would discard the maps after each cleaning session and then reconstruct them from scratch each hour. The i7+ upgrades this attribute in a significant way: it could at the moment save the maps it generates and also make use of them to improve its own cleaning patterns. It also lets me name different places in my house so that I could inform the vacuum to specifically clean a specific space and ignore others.

I could manage up to 10 heavy floor plans in Roomba's app for iOS and Android, and I could control the vacuum via voice commands to Alexa, Google Assistant, or from the app itself. My house has 3 floors, and I could make use of the app to sight every floor and what rooms have been inside. When I put the robot on a heavy floor than its home base, it uses the different sensors and cameras for it to identify which floor it is on automatically and load the right maps. Sadly, it can't yet climb the staircase to obtain to heavy floors; I still have to pick it up and take it such as a philistine.

Watching the i7+ wash a floor is a mesmerizing experience, and it is wildly heavy from the way the non-mapping vacuum gets the job done. Rather than just randomly crisscrossing the room before it runs out of steam, the i7+ follows a logistical and predictable pattern, almost such as the way the lawn care professional trims a field earlier a sporting event. It will wash an entire room earlier continuing on to another 1, and if its battery runs low or its bin fills up earlier it is finished, it is going to remember where it stopped and return to that spot when it is recharged. It's extremely satisfying to watch it perform its own job, and if you're carry on a cleaning cycle, the predictability of it means you could safely maneuver on every side the vacuum without really needing to be concerned regarding getting in its own way.

IRobot says it requires two to 3 cleaning runs for your i7+ to"learn" the room and generate a map, which is regarding what I saw in my testing. My main floor, which has 3 bigger rooms in a largely open plan, has been implicated in two runs, while the upstairs floor with numerous bedrooms, bathrooms, and hallways take extra runs to fully map. Once a floor is mapped, the app will try to identify specific rooms, but you would correct the digital boundaries and then name them after it is tried to sort out them. From there, you would tell Alexa or Google Assistant to wash a specific room with voice commands. In the event you move furniture or otherwise reconfigure a space, the i7+ will correct its map the next hour it conducts a cleanup job and update its own database.

IRobot claims these mapping abilities not just confirm that the Roomba cleans the entire floor earlier giving up, but in addition, it allows it to wash in a quicker, extra efficient manner since it already knows what regions it has protected and what has not yet been done.

The app also has the normal monitoring options and battery-monitoring features. Unique to the i7+ would be the reports after it has finished a job: it could inform me how many square feet it washed, how many"dirt occasions" there were, and how long it take to finish the job. It also shows me a map of all the areas it hit during the cleanup run.

But clever mapping isn't the only luxury feature on the i7+, in addition, it could automatically empty its own bin. The i7+ has a special charging base that sucks all of the dirt and dust out of the vacuum and sets it into a sealed disposable bag. The bag in the base holds 30 bins filled with dirt, and you could buy a three-pack of substitution bags for RM 180 if you have gone through the two that the iRobot includes.

This system has two advantages over the standard way you drain a robot vacuum: it removes placing the dust back into the atmosphere if you hit the bin into the garbage could, and it means you just need to think regarding draining it each month or so, instead of each hour it runs. Obviously, the disadvantage to this is that the base is a lot bigger than a standard charging base, the totes are an added cost that you have to shoulder, and also the procedure for sucking on the dirt out of the vacuum is very loud.

That leads me into the shortcomings of the i7+. IRobot says that the brand new vacuum is quieter than the 980 it replaces, but this is not a quiet vacuum cleaner. It's considerably louder than the simple robot vacuum I'm understand with, and also the cleanup base sounds such as a jet engine when it blows off the dirt out of the i7+. Should you such as to program your robot to operate in the middle of the night when everybody is sleeping, you may great it to be too loud when cleaning and draining. IRobot states that the i7+ has 10 times the suction capacity of its base models, but the cost of all that power is extra noise.

The i7+ also requires few lighting in the rooms in which it is carry on in order for its different cameras and sensors to operate, so carry on it in a darkened room overnight isn't the most effective way to make use of it.

And lastly, although the i7+ got stuck distant smaller frequently than my dumb robot in the months I've been testing it, it still has difficulty with high-pile carpeting. The shag rug runner in my upstairs hallway proved to be particularly difficult for the robot to work out, and it got stuck on the carpet virtually each hour it ran over it, requiring a guide intervention and reset.

The i7+ is a remarkable robot vacuum with unique features which you won't good on lesser models. I do not necessarily think it's worth five times the cost of a typical vacuum, but once this automation trickles down to lower-end models, it is going to be extremely nice to have.

Now, if just robot vacuums can figure out a way to climb stairs.

Conclusion:

Together with the iRobot market getting extra competitive with Lazada and also Shopee, it is surely fine news for the end consumer such as us. We will obtain greater deals and prices for iRobot items such as Roomba and Braava. Together with John Ackerman departing the Malaysia market, it would appear that we're place with AutoVac Bot, Kimi Robot Store, plus a new competitor, OhMyMi.

Personally, I think that AutoVac Bot is your top iRobot distributor right now, since they're highly concentrated on distributing iRobot goods in Malaysia. What I such as top regarding AutoVac Bot is that their simplicity of buy on the website, and extremely speedy response hour via livechat on their website.

They have been venturing in the Singapore market and I'm so excited to sight how it turns out.

Choosing an Office Telephone System

If your organisation has less than 10 employees, a KSU-less office telephone system is the ideal solution. This type of phone system has all of the features of a KSU network, but without the central control unit. Instead, it works wirelessly and has a battery that lasts for up to a week. KSU-less phones start at less than PS300 for a four-line system. They also have a few limitations. Read more great facts on fanvil phone dubai, click here.

Fortunately, there are several advantages to using a PBX system. This type of phone system records everything and provides detailed reports. For example, you can view call volume through a particular extension, how long a department spends on international calls, and more. This kind of system is also easy to reconfigure, as it only needs a single line to serve the entire office. In addition to calling-out options, many PBX phone systems come with additional features, such as voicemail and call-transferring. For more useful reference regarding yealink distributor, have a peek here.

While choosing an office telephone system, make sure to research and compare different options. Some companies will give you a free trial of their services, so you can compare prices and features before making a final decision. It is also possible to compare various companies with a free 14-day trial. By comparing different systems and services, you could save 40% of your business budget. And if your business relies on communication with its clients, a good office telephone system will improve the experience of your customers.

Businesses are becoming more mobile, social media, and more connected through apps, but there is no substitute for good, old-fashioned telephonic communication. Unlike an email or text message, a telephone conversation gives a business a personal touch. It also allows you to speak to your clients directly. An effective phone system will streamline communication, render faster, and help you connect with your audience better. This is why an efficient office telephone system is essential for any business.

Office telephone systems are becoming more of a subscription service instead of a hardware solution. Many businesses can save up to 40% or even 90% on international and local calls. Free internal calls and VoIP-to-VoIP calls are also available. Because of the cost savings, businesses can easily manage the cost of their phone service, allowing them to spend their money on other parts of their business. With an office telephone system, you can avoid these hassles and enjoy more flexibility and freedom.

When looking for an office telephone system, it's essential to consider all the features it offers. Some models come with a range of features that you may not need. Check if these options are available and how much they will cost. Many office telephone systems come with optional features, including call hunt and teleconferencing. These can all help streamline your company's operation. You can also opt for an advanced phone system with features like voice mail and automatic call distribution. Please view this site https://www.wikihow.com/Category:Telephones for further details.

For businesses that need conferencing capabilities, a hosted or cloud-based system might be the perfect solution. This type of phone system requires no onsite hardware and relies on a high-speed internet connection to deliver conversations. In addition to offering conferencing capabilities, modern table-top conference phones feature exceptional call clarity. This type of phone system also boasts a microphone technology optimized for typical office acoustics. The benefits of such a system are obvious.

Reconfigurable Battery Systems (RBS) Market: Growth Dynamics and Technology Disruption

A reconfigurable battery system is a battery pack wherein the interconnections among individual cells can be dynamically altered during operation to form various configurations. This capability transforms a conventional passive two-terminal battery into an intelligent system that can reconfigure itself in response to specific requirements, thereby enhancing operational performance.Reconfigurable Battery Systems (RBS) are revolutionizing the energy storage landscape by offering adaptable, scalable, and efficient solutions for a wide range of applications, including electric vehicles (EVs), renewable energy integration, and backup power systems. 

The reconfigurable battery systems (RBS) market was valued at $3.06 billion in 2024 and is projected to grow at a CAGR of 14.78%, reaching $13.59 billion by 2035.

Market Segmentation

By Application:The demand for effective, large-scale energy storage to facilitate the integration of renewable energy sources is anticipated to propel the grid storage systems segment to the top of the RBS market. Grid stability becomes crucial as countries switch to solar and wind generation, which makes modular and scalable RBS perfect.

By Type: Because of its scalability, versatility, and wide range of industrial applications, modular battery packs are expected to dominate the market. Meanwhile, the growing need for operational safety, efficiency optimization, and real-time performance monitoring will propel the greatest growth in smart battery management systems (BMS).

By Region: With the help of sophisticated infrastructure, robust clean energy regulations, and significant industry participants, North America is expected to dominate the market. Demand for grid storage and integration of renewable energy is highest in the United States.

Market Demand

Integration of Renewable Energy:Efficient storage becomes crucial as countries increase their solar and wind output. In order to maintain reliable power delivery from intermittent sources, RBS provides a responsive, modular solution that guarantees energy is saved and released exactly when needed.

International Investments: In 2024 alone, the United States built 9.2 GW of battery storage capacity. By 2030, Europe wants to surpass 50 GW. Such infrastructural spending is a sign of the growing demand for sophisticated, adaptable storage systems around the world, which is driving the RBS industry.

Innovation in Batteries: RBS's commercial feasibility is growing because to advancements in energy density, cost reduction, and thermal stability. These developments are especially helpful for applications like emergency backup systems and electric cars that need dependability and small form factors.

Market Challenge

Despite the tremendous momentum, proven energy storage methods pose a serious threat to RBS technologies:

Pumped hydro storage continues to rule large-scale applications because of its affordability and track record of dependability.

Because of their established supply networks and inexpensive startup prices, lead-acid batteries are still widely used for emergency and small-scale storage.

RBS offer unparalleled system intelligence and flexibility, but their limited long-term performance data and higher upfront expenses may prevent wider implementation. It will take ongoing research and development aimed at improving energy density, system longevity, and cost competitiveness to overcome these obstacles.

Get your hands on this Sample Report to stay up-to-date on the latest developments in this Reconfigurable Battery Systems (RBS) Market. Click Here!

Gain deep information on  Advance Materials and Chemicals Vertical 

Future Outlook

As global energy systems move toward decentralization, digitization, and decarbonization, the RBS market is about to undergo a dramatic growth phase. For a variety of sectors to provide high-efficiency, dependable, and scalable power storage, these battery systems—which are designed to reconfigure on demand—will become indispensable.

As the need for resilient and clean energy systems grows, RBS will be essential to:

assisting with smart grids

Increasing the use of electric vehicles

enabling vital infrastructure backup power

It is anticipated that cross-industry cooperation, infrastructural improvements, and policy incentives would all hasten market penetration even more.

Conclusion

The paradigm for energy storage is about to be redefined by reconfigurable battery systems. RBS offers a strong substitute for outdated storage methods, supported by strong increases in renewable energy investments, quick developments in modular technology, and sophisticated battery management.

RBS is becoming more competitive in terms of cost, scalability, and performance as a result of ongoing innovation, even as older systems continue to provide challenges. RBS will be essential in creating the sophisticated, low-carbon energy systems of the future as governments and businesses around the world place a higher priority on environmental sustainability and energy security.

The reconfigurable battery systems (RBS) market is valued at $8.27 billion in 2024 and projected to grow at a CAGR of 15.29%, reaching $34.29 billion by 2034.

Global Modular UPS Market Research Report - Global Forecast to 2030

Modular UPS Market Scope

The Modular UPS Market is projected to reach a CAGR of 10.53 % and account value of USD 6.71 billion during the evaluation period in the global market.

The Modular UPS provides additional power to the system, which results in efficient usage of data centers with an increased lifespan of battery life and flexible modularity. The Modular UPS Market is noticing higher growth due to its demand in industrial verticals. Also, the rise in the need for additional power supply and the usage of modular UPS in data center applications are prominent driving factors of the market.

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The market is receiving higher opportunities due to the increased demand for hyperscale data centers, cloud usage, and large colocation facilities is fueling up the market.

The global pandemic has shown a drastic impact on different industries’ economies by shutting down the manufacturing and production units. The Modular UPS Market also faced this challenging situation which harmed the market’s sales. Further, the supply chain networks got disrupted. However, in the future days, the market is expected to recover from the losses and rise back with the efforts of the industrial players.

Growth Boosters and Key Barriers

The UPS market is expanding at a favorable pace all across the globe, with the major demand emanating for modular UPS products across prominent industries. A modular UPS system’s capacity to reconfigure and cater to the load demands offers a high level of flexibility, which is not possible with fixed capacity UPS systems. This helps maximize the operational efficiency, while ensuring trouble-free functioning of critical systems during power interruptions such as brownouts, blackouts, sags, noise interference or surges.

In recent years, the demand for colocation and cloud services has soared considerably and the use of cloud applications across industries has risen sharply, which can be quite favorable for the modular UPS market growth. The intense growth of the colocation sector can also benefit the global market to a large extent. The demand and ubiquity of internet hosting is constantly mounting, which means that SMEs as well as large enterprises need to adapt to the evolving market dynamics in order to stay relevant.

Top giants such as Riello Electronica Group and ABB Group are actively spending huge amounts on developing modular UPS, given the escalating demand from industry verticals such as education, healthcare, government, corporate, among others. This increase in the investments for developing better quality products by major companies can complement the market growth in the approaching years.

Market Segmentation

Modular UPS industry has been thoroughly studied in the MRFR report, keeping in mind the primary segments of component and vertical.

The component segment consists of solution as well as services. Further, the solution segment can be narrowed down to 10-100 kVA, 101-250 kVA, 251-500 kVA, and above 500 kVA.

The vertical that majorly deploy modular UPS are media & entertainment, manufacturing, defense, IT & telecommunication, healthcare, BFSI, data centers are the top segments considered in the report. The demand for modular UPS can grow at a high rate in the healthcare industry, because of the increasing use of medical devices such as ventilators, hematology systems, diagnostic instruments, MRIs, centrifuges, and gas analyzers, among others and the rising need for reliable and uninterrupted power supply for these to operate.

Regional Outlook

The modular ups market has been regionally segmented into Asia Pacific (APAC), Europe, North America, and the Rest of the World (RoW).

The largest share in the global market is expected to be clinched by APAC, while North America and Europe are presumed to gain at the fastest rate in the coming years.

The major market growth in APAC is the result of the rapid technological innovations, mostly in the emerging nations like Japan, India and China. The escalated demand for affordable solutions paired with the rising need for additional power supply are additional factors stimulating the market expansion in the region. Moreover, the surge in the financial soundness of the firms in the region has led to an increase in the investment in the latest technologies for efficient business operations, which works in favor of the regional market.

North America boasts of an expansive industrial sector, which includes healthcare, manufacturing and IT and telecommunication. These industries are increasingly making demand for modular UPS, which has resulted in the market growth in the region. A large number of organizations with a massive base of operation in North America are demanding a higher number of data centers and colocation services, which amps up the demand for modular UPS solutions as well.

Leading Competitors

Leading competitors in the market for modular UPS are Schneider Electric SE (France), Eaton Corporation PLC (Ireland), ABB Group (Switzerland), General Electric (U.S.), Delta Electronics, Inc. (Taiwan), Gamatronic Electronic Industries Ltd. (Israel), Riello Electronica Group (Italy), Huawei Technologies Co. Ltd. (China), Tripp Lite (U.S.), Emerson Electric Co. (U.S.), to mention a few.

Get Complete Report Details at: https://www.marketresearchfuture.com/reports/modular-ups-market-4081

About Market Research Future:

At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Report (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research & Consulting Services.

MRFR team have supreme objective to provide the optimum quality market research and intelligence services to our clients. Our market research studies by products, services, technologies, applications, end users, and market players for global, regional, and country level market segments, enable our clients to see more, know more, and do more, which help to answer all their most important questions.

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Custom SoC for IoT Edge Devices-AI/ML Chip Clusters-PCS IP

Machine learning sub-frameworks are progressively turning out to be important for custom SoC for IoT edge devices, accordingly requiring asset effective designs and executions, particularly when exposed to battery-compelled situations. The non-precise nature of Convolution Neural Networks (CNNs) opens the likelihood to utilize inexact calculations to decrease their required runtime and energy utilization on asset obliged IoT edge gadgets without altogether undermining their order yield. In this paper, we propose a flexibility investigation technique and a clever surmised gas pedal to accelerate the execution of the convolution layer, which is the most tedious part of CNN's, for IoT edge gadgets. Prepared CNNs with Caffe structure are executed on a System-on-Chip with reconfigurable equipment accessible, where the rough gas pedal is sent. CNN applications created with Caffe can exploit our proposed rough speed increase to execute them on IoT edge gadgets. Web of Things (IoT) will drive the development of the semiconductor business in the following decade. In the period of IoT, a huge number of shrewd processing things are associated with settle altered applications. The fundamentals of IoT configuration are spryness, versatility, and security. Security is one of the significant principles for the achievement of IoT. In this paper, we talk about the difficulties and potential answers for IoT security that should be tended to at the IoT discernment layer/Edge hub. The unavoidable part of the IoT edge hub is the microcontroller/System on Chip (SoC).

Artificial intelligence (AI) and Machine Learning (ML) are becoming inescapable in the present applications, like independent vehicles, medical care, aviation, online protection, and numerous basic applications. Guaranteeing the dependability and strength of the fundamental AI/ML Chip Clusters equipment turns into our principal significance. In this paper, we investigate and assess the dependability of various AI/ML equipment. The principal segment diagrams the unwavering quality issues in a business systolic exhibit-based ML gas pedal within the sight of flaws inciting from gadget level non-idealities in the DRAM. Then, we measured the effect of circuit-level flaws in the MSB and LSB rationale cones of the Multiply and Accumulate (MAC) square of the AI gas pedal on the AI/ML exactness. At long last, we present two key dependability issues - circuit maturing and perseverance in arising neuromorphic equipment stages and present our framework level way to deal with relieving them. This report centers around the engineering and execution of the Intelligence Processing Unit (IPU), a novel, enormously equal stage as of late presented by Graphcore and focused on Artificial Intelligence/Machine Learning (AI/ML) jobs. We take apart the IPU's exhibition conduct utilizing microbenchmarks that we made for the reason. We concentrate on the IPU's memory association and execution. We concentrate on the inertness and transmission capacity that the on-chip and off-chip interconnect offer, both in highlight point moves and in a range of aggregate tasks, under assorted burdens. We assess the IPU's register control over network duplication, convolution, and AI/ML natives. We talk about real execution in examination with its hypothetical cutoff points. Our discoveries uncover what the IPU's engineering configuration means for its presentation. Besides, they offer basic mental models to foresee an application's presentation on the IPU, based on the calculation and correspondence steps it includes.

There are two fundamental kinds of tablet PCS IP convertible and record. Convertible tablets look a great deal like ordinary workstations aside from the screen can be turned right around and set down level across the console. Record tablet PCs incorporates just the screen interface - however they are completely coordinated capable with peripherals like consoles and mousse, the actual PC doesn't have them. The two kinds are reasonable choices, contingent upon your own inclinations and why you'll utilize them. Similarly, as with any innovation, tablet PCs enjoy benefits and disservices. On account of the most recent couple of long periods of improvement and upgrade, the hindrances are contracting in number, and the advantages are turning out to be increasingly alluring. By a long shot, the best thing about tablet PCs is their versatility. You can take and utilize them anyplace you go, the same way you would take a journal and pen. That implies that when your supervisor catches you in the lobby and provides you with various tasks, you can record them. In gatherings, you don't need to conceal your face behind the screen of your PC since you can lay the tablet PC level on the table. For understudies, this portability is extraordinary - you can concentrate on your notes while you're holding up in lines or even in the vehicle. Tablet PCs let you utilize advanced ink to store written by hand notes, diagrams, outlines, and pictures. Utilizing the pointer, tablet PCs record your penmanship and drawings. They can change your penmanship over to message on the off chance that you really want to turn in a task typewritten.

Introducing the WM2000EV Evaluation Kit and Ubuntu-Derived Linux Distribution for Tibbo Project System

Folks,

We are proud to make these two important announcements:

WM2000EV Evaluation Kit for the WM2000 Wireless IoT Module

Ubuntu-derived distribution for our LTPP3(G2) board WM2000EV Evaluation Kit

WM2000EV Evaluation Kit

The newly released WM2000EV is an elegant kit for evaluating the capabilities of the WM2000, Tibbo's programmable Wi-Fi/BLE module.

The kit was designed to be completely self-contained and enable the exploration of the module's features without having to wire in any external circuitry. To this end, the board comes equipped with all essential buttons and status LEDs, temperature and light sensors, as well as a PWM-controlled RGB LED. The included CR2032 battery (installed in a holder) can be used to test out the WM2000's low-power "sleep" mode, in which the RTC continues operating and can wake the module up at a preset time.

To aid you in learning about the WM2000's features and capabilities, we have prepared a tutorial featuring a variety of projects.

Your journey begins with testing the IoT/sensor application that comes preloaded on the kit's WM2000. Follow the accompanying step-by-step guide, and in as little as 10 minutes you will have the WM2000 connected to and reporting the measured temperatures and light levels to the Keen service.

The second chapter teaches you how to wirelessly upload a different application into the WM2000. This application showcases controlling the board's RGB LED from a modern, non-reloading web page. In this step, you will also learn about the module's ability to store two applications at once.

Further steps will explain wireless debugging, using CODY (our project code generator), debugging code wirelessly, connecting to Microsoft's Azure cloud service, as well as using the WM2000 in BLE-enabled access control applications.

The kit is powered via an included USB-C cable, which can also be used as a wired debugging interface accessible from our TIDE and WebTIDE software. To facilitate debugging, the board's USB port is connected to the serial debugging pins of the WM2000 via a USB-to-serial converter IC. Wired debugging is useful when wireless debugging via Wi-Fi is unavailable or inconvenient.

Two pin headers are provided for easy access to the WM2000's pins. The module itself is held in place by spring-loaded pins and can be easily popped out and back in. The board even features jumpers and test points for measuring the current consumption of the board and the module.

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Ubuntu-based Distribution for the LTPP3(G2) Board

To facilitate the rapid development and deployment of Tibbo Project System (TPS)-based automation and IoT applications while offering our users a familiar environment, we have created an Ubuntu-based Linux distribution.

Ubuntu is one of the world's most popular flavors of Linux. It runs on all kinds of platforms and architectures, and there is a massive amount of community resources available for all project types.

Tibbo's Ubuntu-derived distribution is ideal for system integration, one-off projects, low-volume applications, educational props, and rapid prototyping of products, as well as experimentation and exploration. It provides a user experience similar to that of single-board computers such as Raspberry Pi, but on an extendable hardware foundation that was purpose-built for IoT and automation projects.

Those familiar with Ubuntu will find themselves at home on this new distribution offered by Tibbo. For example, there is a Personal Package Archive (PPA) that is accessible directly through the standard package management utility, apt-get. The PPA contains several tools to help you get started with our Ubuntu-based distribution on the LTPP3(G2) as quickly and effortlessly as possible.

The LTPP3(G2) is a member of the TPS family. A popular choice for automation and IoT projects, our TPS lineup includes the mainboards, I/O modules called Tibbits, and attractive enclosures. The LTPP3(G2) is a Linux mainboard designed around our advanced Plus1 chip.

Included in the PPA, the Out-of-Box Experience (OOBE) script simplifies the device's configuration with a series of interactive prompts that guide you through the process of setting up Wi-Fi/Bluetooth connectivity and the board's Ethernet ports for pass-through or dual-port operation.

Despite its young age, our Ubuntu-based distribution is already hard at work at our manufacturing facility in Taipei. For example, we use LTPP3(G2) boards for testing Tibbits during their production. Employing two high-definition cameras and a touchscreen, this system serves as the testbed for different Tibbits. Thanks to the power of the Plus1's pin multiplexing (PinMux), the individual I/O lines of the board can be remapped on the fly to cater to the needs of whichever Tibbit is being tested at the moment — no kernel rebuild or reboot required. On this new distribution, the board's GPIO lines are reconfigurable in code, much like they are in a typical Tibbo BASIC application.

While this effort remains a work in progress, the development of our Ubuntu-based distribution has reached a point where we feel comfortable sharing a working build with you. We have prepared a repository that contains not only the latest working image, but also automation scripts for customizing your builds through Docker.

We invite you to join us in exploring the exciting opportunities opened up by this new distribution. As always, we welcome your feedback to help us deliver useful solutions tailored to your needs.

Visit the LTPP3(G2) Page!

Digital Power Chip, Global Market Size Forecast, Top 8 Players Rank and Market Share

Digital Power Chip Market Summary

According to the new market research report “Global Digital Power Chip Market Report 2023-2029”, published by QYResearch, the global Digital Power Chip market size is projected to reach USD 3.63 billion by 2029, at a CAGR of 11.3% during the forecast period.

Figure.   Global Digital Power Chip Market Size (US$ Million), 2019-2030

Above data is based on report from QYResearch: Global Digital Power Chip Market Report 2024-2030 (published in 2024). If you need the latest data, plaese contact QYResearch.

Figure.   Global Digital Power Chip Top 15 Players Ranking and Market Share (Ranking is based on the revenue of 2023, continually updated)

Above data is based on report from QYResearch: Global Digital Power Chip Market Report 2024-2030 (published in 2024). If you need the latest data, plaese contact QYResearch.

According to QYResearch Top Players Research Center, the global key manufacturers of Digital Power Chip include Texas Instruments, NXP, Microchip Technology, STMicroelectronics, Infineon, etc. In 2022, the global top four players had a share approximately 68.0% in terms of revenue.

Figure.   Digital Power Chip, Global Market Size, Split by Product Segment

Based on or includes research from QYResearch: Global Digital Power Chip Market Report 2024-2030.

In terms of product type, currently 12 Bits is the largest segment, hold a share of 16.9%.

Figure.   Digital Power Chip, Global Market Size, Split by Application Segment

Based on or includes research from QYResearch: Global Digital Power Chip Market Report 2024-2030.

In terms of product application, currently Telecommunications Equipment is the largest segment, hold a share of 49.9%.

Market Drivers:

Technological progress and market demand: With the rapid development of science and technology, especially the popularization of 5G technology, the demand for digital power chips has increased significantly. 5G equipment requires more efficient and stable power management chips to support its high-speed, low-latency communication requirements. In addition, the rapid development of the new energy vehicle market has also promoted the growth in demand for digital power chips, because new energy vehicles use battery power systems and require digital power ICs to control and manage power.

Programmability and reconfigurability: One of the biggest advantages of digital power chips is its programmability and reconfigurability, which allows the power system to be more flexibly adapted to different application needs, further expanding its market application scope. .

Energy efficiency and performance optimization: Digital power chips can improve the energy efficiency and performance of equipment and reduce power consumption through precise power management and control, which is very critical for modern electronic equipment that pursues high performance and low energy consumption.

Policy support and investment drive: The government's policy support for new energy, energy conservation and emission reduction, as well as the capital market's enthusiasm for investment in the semiconductor industry, have provided a strong driver for the development of digital power chips.

Challenge:

Technical challenges: As an integrated circuit product, digital power chips face many technical challenges during their design and manufacturing process. With the improvement of chip integration, the requirements for manufacturing accuracy and stability are also getting higher and higher. At the same time, digital power chips need to have efficient, stable, and reliable power management capabilities, which places extremely high requirements on the design and manufacturing process of the chip. In addition, as new technologies continue to emerge, how to maintain technological leadership and innovation is also an important challenge faced by digital power chips.

Market challenges: As market competition intensifies, digital power chip companies are facing pressure from competitors. In order to win market share, companies need to continuously improve the performance and quality of their products while reducing costs. In addition, as market demand continues to change, companies need to quickly respond to market changes and flexibly adjust product strategies to meet customer needs.

Industry chain challenges: The manufacturing of digital power chips involves multiple links, including chip design, manufacturing, packaging and testing, etc. The lack or instability of any link may affect the operation of the entire industrial chain. Therefore, digital power chip companies need to work closely with upstream and downstream companies in the industry chain to jointly respond to various challenges.

Safety and reliability challenges: Digital power chips play a vital role in equipment. Once a failure occurs, it may lead to the failure of the entire equipment. Therefore, digital power chips need to have a high degree of safety and reliability. Enterprises need to strengthen quality management and control to ensure product stability and reliability.

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Robot Made of Ice Can Repair and Rebuild Itself

The prototype IceBot isn’t quite ready, but someday could exhibit “self-reconfiguration, self-replication, and self-repair.”

A team of researchers want to build robots out of ice and send them to space. The idea is that — lacking a local repair shop — the icy bots can use found materials to rebuild themselves.

Ice can be located all over the solar system, from the moon to the distant rings around Saturn. So researchers from the University of Pennsylvania are trying to figure out how to tap into that nearly unlimited resource for robotics.

NASA wants to send the robot dog, Spot, to space. The canine-bot can do many tricks — from herding sheep to helping the NYPD in a hostage situation — but it likely won't be able to repair itself. Where could it find enough materials to do the job?

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Introducing IceBot, a concept robot that could be the future of robotic space exploration — although the team says they've only just begun. The work is still very preliminary, reports IEEE Spectrum, however, their goal is to design a robot that can exhibit "self-reconfiguration, self-replication, and self-repair."

In a paper presented at the IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) the team outlined several ways to create the bots out of ice, using additive and subtractive manufacturing processes.

Their first robot, a proof-of-concept Antarctic exploration robot, weighed 6.3 kilos, could roll up a 2.5-degree incline, and turn side to side. One caveat: they included regular batteries and actuators in their plans. But the bulk of the robot, and its structural parts and wheels were all built out of ice.

Devin Carroll told IEEE Spectrum that he and his co-author Mark Yim wanted to build the robots from found materials "as a way to add robustness to robotic systems operating in remote or hostile environments."

"We ultimately settled on ice because of the design flexibility it affords us and the current interest in icy, remote environments. Climate change has many folks interested in the Antarctic and ice sheets while NASA and other space exploration groups are looking to the stars for ice and water," he said.

Carroll sees the ice robots working in teams, where an explorer bot collects materials and the other bot acts as the mechanic.

"We can envision the exploration class of robot returning to a centralized location with a request for a plow or some other augmentation and the manufacturing system will be able to attach the augmentation directly to the robot," he said, adding that one of the biggest challenges is minimizing the amount of energy required to repair the robots.

There is still a lot of work to do before IceBot is space-ready. But this proof-of-concept robot is the first step in demonstrating that a robot made of ice could perform different tasks. For now, there are other exciting space feats to look forward to this year.